Peters



2 Shets-Sheet l.

' (Nomodel.)

' A. IMSGHENETZKY.

` GALVANIG BATTERY.

Patented Mar.. 26

l l .IVIIII VIIII Il lll Il WITNESSES:

2 Sheets- Sheet 2.Y

A. IMSGHENETZKY.g

(No Mod'el.)

GALVANIG BATTERY'. l

Patented Mar. 26, 1889..

gn ng WITNESSES;

` Attorney.

' ting its ready combination with ilNrTED STATES PATENT EETCE.

ALEXANDER IMSCHENETZKY, OF ST. lPE'lER-SlilRG, RUStiilA.

GALV'ANIC BATTERY.

SPECIFICATION forming part of Letters Patent No. 4O,215, dated March 26, 1889. Application filed July 21,1888. Serial No. 280,586. (No model.) Patented in France .Tune 29, 1888, No. 191,498.

stances will depend on local and economic considerations. Thus, for electrical installations on alarge scale, provided with a laboratory or special regenerating-plant, it will be advantageous to employ a sulphite or hyposulphite and dilute manganic acid, (KMnOfl- HzSOfl-HOQ for this combination gives the highest electro-motive force, and the chemical products formed in the cells may be easily regenerated. During the action of the cell the sulphite or hyposulphite of soda (Na2SO3) or (Na,S,O) is transformed into sulphate of soda (NaQSOQ and thc manganic acid (QKMnO i-H2801) into sulphate of potash and eroxide of manganese, (lQSOH-QMnOZ.) later (4l-120) is also formed. The sulphate of soda formed in the cell, being calcined with carbon, gives sulphide of sodium, (Nazi) and the solution of this latter, being saturated with sulphurous-acid gas, is transformed into hyposulphite of soda, (NagSgOg) or in lieu of this, to obtain the sulphite of soda, (NaZSOSJ we may transform the sulphate of soda (NagSOQ into carbonate (NaCO) and the solution of this latter into sulpliite means of sulphurous-acid gas. The sulphate of peta-sh (KSOJ) may be transformed into carbonate (KCOS) and into the hydrate (K 0H) of potash, and this latter, being calcined with peroxide of manganese, (MnOb) gives manganate of potash, (KMnOM) which, by simply heating its solution, is transformed into permanganate of potash, (KMuOp) This transformation may also be produced by other means; but in all cases only the following materials are needed: sulphur, carbonate of lime or hydrated limo, carbon, and the necessary fuel for calcination and evaporation. The sulphites and hyposulphites of potash and soda may be employed indifferently, for they give nearly equal electro-motive force. Either may be employed, as economy dictates. For il a smaller electrical installation, where there is no laboratory, and in general where the regen- For electrodes l employ Zinc and carbon. The liquids are: that for the zinc, a solution l eration of the liquids and deposits would not it is more advantageous, in

of a sulphite or hyposulphite of any alkaline prove profitable,

metal, as hyposulphite of soda (Na,S,O) or i view of obtaining the current at the least posthe sulphite of soda, (Na,SO) and that for sible cost, to employ for the zinc the hyposulthe carbon any Voxidizing-liquid whatever', as phite of soda, which is cheap, and which may nitric acid, a mixture of nitrate of potash i be easily preserved without deterioration; with sulphuric acid, or dilute manganic acid, and for the carbon, in place of manganate of chromic acid, &c. The choice of these subi potash, which is comparatively expensive,

To all whom it may concern:

Be it known that l, ALEXANDER IMscHE- NETZKY, a captain in the Russian army, and a resident of St. Petersburg, Russia, have infented certain new and useful Improvements in Galvanic Batteries, (for which a patent has been granted in France, No. 191,498, dated .lune 29, 1888,) of which the following is a speciiication.

My invention relates to galvanic cells and batteries, and the leading purpose of the in- Yention is to prevent polarization and lessen the internal resistance of the cell by the em-l ployment of depolariZing-liquids, and by providing the battery with means for compelling circulation of the liquids in the cells.

My invention will be fully described hereinafter, and its novel features carefully defined in the claims.

ln all galvanic cells known up to the present, so far at least as I am aware, the zinc or other electro-positive metal has been placed in a liquid capable of dissolving the oxide of the metal formed by the action of the oxygen which is disengaged at the surface of the metal. Vhis condition is necessary in order to keep the surface of the metal free from all deposits and assure its contact with the liquid. The other electrode has always been placed in a liquid rich in oxygen and permitthe hydro- The zinc in gen disengaged at the electrode. i these cells acts as a depolarizcr for the oXyl gen. `I have found that by placing the Zinc not in a liquid capable of dissolving its oxide, but in a liquid which is itself capable ot' boing oxidized and of which the affinity for oxyl gen is greater than that of the zinc, this liquid, and not the zinc, becomes the depolarizing agent and the zinc remains unaltered. lt is evident that the zinc ought not to enter l into chemical combination with the liquid and replace the metal of the salt.

of soda (Na2SO3) by IOO any oxidizing-liquid may be used, as chromic or nitric acid or a mixture ot saltpeter and sulphuric acid; but the electro-motive force will not be so great in this case. rlhe batteryliquids should have equal densities.

[n the drawings l have shown a battery const ructed according to my invention and especially adapted for use with the liquids Ihavc described.

ligure l a transverse vertical section of a single cell, showing the arrangement ot' the electrodes and partitions therein. Fig. 2 is a longitinlinal vertical section ot' a cell, showing the pipes for compelling circulation ofthe l)attenv-liquids. Fig. is a side elevation of a battery ot" several cells. In this view a part ot' the wall ot the cup or box is broken away, so as to expose the interim' parts. Fig. l is a plan ot the battery. lig. 5 is a detail view showing (in elevation and transverse section) a porous ceramic partition adapted for large cells.

A is the box, tray, or cup of the cell or battery. This cup maybe o'l wood or metal, and should beiined interiorly with resin,bitumen, parattine, or the like. Vlt is divided into three eompartments by two partitions, 13B. These partitions are-ot' some porous material not liable to be acted on by the battery-liquids, as terra-cotta or sott burned and unglazcd clay. ln the middle compartment is placed the positive electrode Z, of laminated zinc, and in the two outer two carbon electrodes (l t". These carbons are connected at their upper ends by a metallie ring, o, and are isolated from the zinc by blocks ol some suitable non-condueting material.

For cells ot' moderate dimensions the partitions fl; ll may each. be made of a single piece ot terra-cotta or the like; but for large cells the construction illustrated in Fig. may be employedthat is to say, the small plates or panes Z/ of terra-cotta may be set in a sash, b, ol" iron. In settingthese plates in the l'rame their edges are coated with a suitable resin or varnish bet'ore insertion, and the metal frame must be ctlated also with some similaiI material.

In constructing the l to reduce the size ot' th sible and to arrange the electrodes as near together as possible, with a view ot' lessening the internal resistance of the battery. To insure the regular action ot' the battery, itis necessziry, however, that there shall be considerable liquid about the electrot'les. These two conditions maybe realized bymaking the liquids circulate continuously through the cinnpartments of the cells.

ln Figs. 2, .5, and lthe battery is shown nttt'ery, it is desirable e cells as much as posprovided with means for compelling the cirrlhe liqevated reserand are conveyed down to partments of the batteryculatitni ot' the two liquids therein. nids are contained in sel'iarate el voirs, (not showin) the respective com compartinents are placed the l cells by supply 'n1y and n and distrilmt-ing pipes D and E, these latter extendiilg lengthwise of the battery near :its bottom. These distributing-pipes D and E distribute the liquids to the respective compartments ol. the cells through branches c @provided each with a cock, which serves to cut oftl any `mlfrticular cell from the others for the purpose o t' cleaning or repairing it. The pipe D connected with the middle compartments ot' the cells and the pipe E with the outer eonq'lartments thereof. At the level of the liquids :in the conipartments otl the cells are arranged pipes D and E', the :former connectililg with the middle compartments of the cells and the latter with the outer co1npartmeiits. The liquids overflow into these pipes, respectively, and are led away from these pipes D E', respectively, by pipes n1. n', which may connect with any suitable receiving-rcservoirs arranged at a lower level than the battery, and not shown.

ln order to draw ol'f the liquids from the cells, I provide two longitudinal pipes, F and G, arranged below the battery and connected, respectively, with the pipes n. and m. The pipe 'F is connected Wit-h the middle conqiart`- ments ot the several cells by cock-controlled branches c, and the pipe (fl is connected inthe same manner with the exterior compartmcnts by eoclecoixtrolled branches The principal advantages of the construe tionV above described are these:

First. The distance from one electrode to the other in each cell is reduced to a minimum.

Second. The continrunis and upward circulation ot.' the liquids about the electrodes as surcs the sel'iaration of the bubbles ot' gas that may torni there, and this diminishesthe polarization and the internal resistance.

Third. 'lhe electrodes remain in contact with Vt'resh liquids having a constant composition. This also serves to diminish polarization and to protect the zinc t'rom oxidation.

Fourth. l`he ari-augenlent and cmlstruction described. materially facilitates the charging, discharging, and Washing out ot' the cells.

Fifth. The battery when thus arranged and constructed occupies less space than a battery having a constant volume of.' liquid.

l am aware that it is not newT to provide a battery-cell with supply and outlet pipes for the liquids, the supplywpipe being' arranged at the top and the outlet-pipe at the bottom ot' the cell, and this I do not claim; but by arranging' the suppl y-pipe at the bottom and the overlowqiipe at the mean -level ot the liattery liquids, thus forcing th e fresh liquid up around. the electrodes, l render the polzinizati on oit the battery :t'rom gas-bubbles almost impossible, as the upward curreu t carries them with it to the surtaee.

Having thus described my invention, I claiml. A gal vanic element havin ga carbon. clce- J trede, a Zin c electrotfle, and two liqu ids in wh ich the said electrodes are respectively immersed,

.l OO

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the liquid about the carbon consisting of clilute manganio acid and the liquid about the zine consisting of a solution of a sulphite or hyposulphite of an alkaline metal.

2. The combination, with a battery element having different compartments and liquids vfor the electrodes, of the supply-pipes m and vz., the distributingmipes D and E, the overow-pipes D', E', m', and n', and the drainio age-pipes F and G, said drainage-pipes being connected with the pipes m and n', respectively, substantially as set forth.

In Witness whereof l have hereunto signed my name in the presence of two subscribing witnesses.

ALEXANDER IMSCIIENETZKY.

VitueSSeS:

N. TSGHENALOFF, I. HIERLING. 

